Systems, devices, and methods for cleaning a sensor are provided. A sensor can include a housing. The housing can include a curved lens. The sensor can further include an inlet configured to receive a pressurized fluid. The sensor can further include a rotatable fluid distributor positioned within the housing. The rotatable fluid distributor can be configured to receive the pressurized fluid from the inlet. The sensor can further include a plurality of nozzles positioned around an exterior of the housing. Each of the plurality of nozzles can be configured to direct a flow of the pressurized fluid onto at least a portion of the curved lens. When the pressurized fluid is provided to the inlet, the rotatable fluid distributor can be configured to receive the pressurized fluid from the inlet and distribute the pressurized fluid to only a subset of the plurality of nozzles at any time.

Systems, devices, and methods for cleaning a sensor are provided. A sensor can include a housing, a rotatable disc, a plurality of nozzles, an inlet configured to receive a pressurized fluid, and one or more distribution channels configured to direct the pressurized fluid from the inlet to the rotatable disc. The housing can include a curved lens and a channel circumferentially positioned around a base of the housing. The rotatable disc can be positioned within the channel and configured to rotate around at least a portion of the housing within the channel. The plurality of nozzles can be positioned on the rotatable disc. The rotatable disc can direct the pressurized fluid onto at least a portion of the curved lens via the plurality of nozzles, thereby causing the rotatable disc to rotate around at least the portion of the housing.

The invention concerns a vehicle, comprising at least one camera and one corresponding washing system (3) for cleaning the camera, the washing system comprising a housing (10) for receiving the camera, a cleaning fluid storage tank (20), a nozzle (12) for spraying the cleaning fluid inside the housing and a pump (22) for pumping the cleaning fluid from the tank to the nozzle. The washing system further includes a passage (18) extending from the housing (10) to the tank (20), for draining, under gravity, used cleaning fluid back into the tank (20).

The invention concerns a vehicle, comprising at least one camera and one corresponding washing system (3) for cleaning the camera, the washing system comprising a housing (10) for receiving the camera, a cleaning fluid storage tank (20), a nozzle (12) for spraying the cleaning fluid inside the housing and a pump (22) for pumping the cleaning fluid from the tank to the nozzle. The washing system further includes a passage (18) extending from the housing (10) to the tank (20), for draining, under gravity, used cleaning fluid back into the tank (20).

Disclosed is an improved vehicle reservoir system for managing the distribution of applicable fluids, including either liquids or gases individually, simultaneously, or a combination of these in a predefined sequence. In one embodiment, a first reservoir contains a non-pressurized fluid that is transferred to a distribution manifold and a second reservoir contains a pressurized fluid that can be transferred to the distribution fluid for admixing with the first reservoir fluid, or to a second distribution manifold, or a combination thereof.

Disclosed is an improved vehicle reservoir system for managing the distribution of applicable fluids, including either liquids or gases individually, simultaneously, or a combination of these in a predefined sequence. In one embodiment, a first reservoir contains a non-pressurized fluid that is transferred to a distribution manifold and a second reservoir contains a pressurized fluid that can be transferred to the distribution fluid for admixing with the first reservoir fluid, or to a second distribution manifold, or a combination thereof.

The invention relates to a system (1) for cleaning an optical sensor (3), in particular for a motor vehicle, comprising: at least one projection member (5) for protecting a cleaning fluid, characterized in that the system (1) includes a confinement wall (11) that supports the at least one projection member (5) and can move from a retracted position in which the confinement wall is designed to be outside the field of view of the optical sensor (3) and a cleaning position in which the confinement wall (11) is designed to be located across from the optical sensor (3) and in which the at least one projection member (5) is positioned in such a way as to project the cleaning fluid against the optical sensor (3).

The invention relates to a system (1) for cleaning an optical sensor (3), in particular for a motor vehicle, comprising: at least one projection member (5) for protecting a cleaning fluid, characterized in that the system (1) includes a confinement wall (11) that supports the at least one projection member (5) and can move from a retracted position in which the confinement wall is designed to be outside the field of view of the optical sensor (3) and a cleaning position in which the confinement wall (11) is designed to be located across from the optical sensor (3) and in which the at least one projection member (5) is positioned in such a way as to project the cleaning fluid against the optical sensor (3).

The present disclosure relates to vehicle technology, and more particularly, to an unmanned vehicle and its sensor device and cleaning mechanism. The cleaning mechanism includes: a housing, a cleaning element, a driving component transmissively connected to the cleaning element and a control unit installed within a receiving cavity. The housing has a light transmissive element provided on a side surface thereof. The cleaning element is pivotable about one end thereof and mounted to the housing. The cleaning element, when pivoting, frictionally interacts with a surface of the light transmissive element that is away from the receiving cavity to clean the light transmissive element. The control unit is communicatively connected to the driving component for controlling the driving component. The cleaning mechanism can clean the light transmissive element using the cleaning element, so as to solve the problem in the related art that a sensor may not function normally due to contamination of a sensor device by dirt such as dust.

The present disclosure relates to vehicle technology, and more particularly, to an unmanned vehicle and its sensor device and cleaning mechanism. The cleaning mechanism includes: a housing, a cleaning element, a driving component transmissively connected to the cleaning element and a control unit installed within a receiving cavity. The housing has a light transmissive element provided on a side surface thereof. The cleaning element is pivotable about one end thereof and mounted to the housing. The cleaning element, when pivoting, frictionally interacts with a surface of the light transmissive element that is away from the receiving cavity to clean the light transmissive element. The control unit is communicatively connected to the driving component for controlling the driving component. The cleaning mechanism can clean the light transmissive element using the cleaning element, so as to solve the problem in the related art that a sensor may not function normally due to contamination of a sensor device by dirt such as dust.